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Literature DB >> 29939427

Lanthanide Contraction as a Design Factor for High-Performance Half-Heusler Thermoelectric Materials.

Yintu Liu¹, Chenguang Fu², Kaiyang Xia¹, Junjie Yu¹, Xinbing Zhao¹, Hongge Pan¹, Claudia Felser², Tiejun Zhu¹.

Abstract

Forming solid solutions, as an effective strategy to improve thermoelectric performance, has a dilemma that alloy scattering will reduce both the thermal conductivity and carrier mobility. Here, an intuitive way is proposed to decouple the opposite effects, that is, using lanthanide contraction as a design factor to select alloying atoms with large mass fluctuation but small radius difference from the host atoms. Typical half-Heusler alloys, n-type (Zr,Hf)NiSn and p-type (Nb,Ta)FeSb solid solutions, are taken as paradigms to attest the validity of this design strategy, which exhibit greatly suppressed lattice thermal conductivity and maintained carrier mobility. Furthermore, by considering lanthanide contraction, n-type (Zr,Hf)CoSb-based alloys with high zT of ≈1.0 are developed. These results highlight the significance of lanthanide contraction as a design factor in enhancing the thermoelectric performance and reveal the practical potential of (Zr,Hf)CoSb-based half-Heusler compounds due to the matched n-type and p-type thermoelectric performance.

Entities: Chemical Disease

Keywords: alloy scattering; half-Heusler; lanthanide contraction; thermoelectrics

Year: 2018 PMID： 29939427 DOI： 10.1002/adma.201800881

Source DB: PubMed Journal: Adv Mater ISSN： 0935-9648 Impact factor: 30.849

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Cited

5 in total

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5. The Electronic Transport Channel Protection and Tuning in Real Space to Boost the Thermoelectric Performance of Mg_3+δ Sb_2-y Bi _y near Room Temperature.

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